SU1121616A1 - Cotton fibre damage degree evaluation method - Google Patents

Abstract

A METHOD FOR ESTIMATING THE DEGREE OF COTTON FIBER DAMAGE, which consists in determining the number of damaged fibers, is different because, in order to improve the accuracy and simplify the evaluation process, the value of the sample’s dielectric loss tangent at a frequency f equal to 1-10 kHz is determined which is judged on the number of damaged fibers in accordance with the calibration dependence tgiSua..pl where () the maximum value of the dielectric loss tangent of cotton fiber is the concentration of submicrotreatments.

Description

FIELD OF THE INVENTION The invention relates to cotton and textile mills in particular 3Ks for quality control of textiles; 3o-l f; personal technological transitions

A known method for estimating the degree of damage to the hopcum fiber is to determine the amount of recovered fibers i | ,

The number of damaged alarms in this case is estimated by recalculating the number of metal atoms that are deposited on the damage. The ends of the fibers, the number of which corresponds to the following level: ignored, received on an EPR radio spectrometer.

The disadvantage of this method is its low accuracy to the complexity of the projection of the evaluation process;

The purpose of the invention is the superior accuracy and simplification of the assessment process j

This goal is achieved: with that, according to the method for assessing the degree of damage to cotton fibers, in determining the number of damaged fibers, the number of damaged tangents of the dielectric loss angle was determined.

The frequency is equal to 1--10 kHz, for which

Bumper of the quantity of Japanese fibers e corresponding: in g; Calibral EYAG: -C -iMOC rbKi

maximum loss of angle of dnepk “trocnex losses of the clone fiber, co-sheg1), c; microcrescents ..

The essence of the method is explained by the dependence.-I ,,, on the degree of damage, on the grid in FIG. i (ka: scraper dependence) Concentration 1; y of submicrotherz cotton fiber samples from various technological transitions determine the confusion of x-ray measurements by small-angle digofuson scattering:

The material with pa3j: H4Hb x techno-optical transitions is placed between the o6kl, nkam1-1 capacitor connected to the meter (bridge P-571 or P-50U) | The value of tdS is measured at a frequency of 1–10 kGa, the dependence of CO S on the CoS-1, and the subculture of the Balkhok Bolokvn is shown on. SHIT, K Using this dependency for a particular technological transition by measuring. It is possible to determine the concentration of sub-microcracks in cotton fiber,

GETTING THE TD S 5 IC

w for fiber i:; 3 kips, concentration

N ... f, 22 1 Cr: 11 or by measuring the value of i S 2, 3 ° 1 СГ for Ylokna from the carding tape with the end of the tape with the end of 1; the cracks N ..- 3., 6 10

This frequency range is explained by the fact that the prn f - | -10 kGd dependence of t; f 5 on the hour passes through the maximum possible corresponding possible. And fluctuations of cellulose molecules in cotton BOJSOKHe, i.e. at these frequencies; possesses the greatest accuracy and resolution,

Assessing the degree of damage to cotton fibers according to .c-g-gain allows you to accurately simplify the assessment process.

Claims (1)

A METHOD FOR EVALUATING THE DEGREE OF DAMAGE TO COTTON FIBERS, which consists in establishing the number of damaged fibers, is characterized in that, in order to increase the accuracy and simplify the assessment process, the value of the dielectric loss tangent at a frequency f of 1-10 kHz is determined, which judges the number of damaged fibers in accordance with the calibration dependence> the maximum value of the dielectric loss tangent of cotton fiber, the concentration of submicrocracks. A 1J21616